/* * Keypair Checks * (C) 1999-2010 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include namespace Botan { namespace KeyPair { /* * Check an encryption key pair for consistency */ bool encryption_consistency_check(RandomNumberGenerator& rng, const Private_Key& key, const std::string& padding) { PK_Encryptor_EME encryptor(key, padding); PK_Decryptor_EME decryptor(key, padding); /* Weird corner case, if the key is too small to encrypt anything at all. This can happen with very small RSA keys with PSS */ if(encryptor.maximum_input_size() == 0) return true; SecureVector plaintext = rng.random_vec(encryptor.maximum_input_size() - 1); SecureVector ciphertext = encryptor.encrypt(plaintext, rng); if(ciphertext == plaintext) return false; SecureVector decrypted = decryptor.decrypt(ciphertext); return (plaintext == decrypted); } /* * Check a signature key pair for consistency */ bool signature_consistency_check(RandomNumberGenerator& rng, const Private_Key& key, const std::string& padding) { PK_Signer signer(key, padding); PK_Verifier verifier(key, padding); SecureVector message = rng.random_vec(16); SecureVector signature; try { signature = signer.sign_message(message, rng); } catch(Encoding_Error) { return false; } if(!verifier.verify_message(message, signature)) return false; // Now try to check a corrupt signature, ensure it does not succeed ++message[0]; if(verifier.verify_message(message, signature)) return false; return true; } } }